More information on CEITEC core facilities available HERE.

Information about CEITEC MU NANOBIOTECHNOLOGY CORE FACILITY together with access to booking system is available HERE
Equipment of the Core facility is described HERE.​


CNR NANOTEC (in Italian)

More information about CNR NANOTEC facilities and labs is available HERE.


JKU ZONA

More information about the Insitute of Applied Physics and ZONA is available HERE.


CNRS LNCMI

More information about CNRS LNCMI laboratory, including its facilities, is available HERE.

Materials

Presentations


Materials from the TWINFUSYON Winter school and workshop New Frontiers in 2D materials: Approaches & Applications are available for the school participants on the school website in section DOWNLOAD.


Papers

Insights into the effects of metal nanostructuring and oxidation on the work function and charge transfer of metal/graphene hybrids 
M. M. Giangregorio, W. Jiao, G. V. Bianco, P. Capezzuto, A. S. Brown, G. Brunoaand M. Losurdo
Nanoscale, 2015, 7, 12868, DOI: 10.1039/c5nr02610e www.rsc.org/nanoscale


Demonstrating the Capability of the High-Performance Plasmonic GalliumGraphene Couple
Maria Losurdo, Congwen Yi, Alexandra Suvorova, Sergey Rubanov, Tong-Ho Kim, Maria M. Giangregorio, Wenyuan Jiao, Iris Bergmair, Giovanni Bruno, and April S. Brown
ACS Nano, 8, 3031–3041 (2014) http://pubs.acs.org/doi/abs/10.1021/nn500472r 


Magneto-Optical Signature of Massless Kane Electrons in Cd3As2 A. Akrap et al., Physical Review Letters, 117, 136401 (2016).

Probing Electronic Excitations in Mono- to Pentalayer Graphene by Micro Magneto-Raman Spectroscopy Stéphane Berciaud, Marek Potemski, and Clément Faugeras, Nano Letters 14 (2014).

Intrinsic Terahertz Plasmons and Magnetoplasmons in Large Scale Monolayer Graphene I. Crassee,M. Orlita, M. Potemski, A. L. Walter, M. Ostler, Th. Seyller, I. Gaponenko,J. Chen, and A. B. Kuzmenko., Nano Letters, 12 (2012).

Probing the band structure of quadri-layer graphene with magneto-phonon resonance C Faugeras, P Kossacki, A A L Nicolet, M Orlita,M Potemski, A Mahmood and D M Basko, New Journal of Physics 14, 095007 (2012).

Tuning the Electron-Phonon Coupling in Multilayer Graphene with Magnetic Fields C. Faugeras, M. Amado, P. Kossacki, M. Orlita, M. Sprinkle, C. Berger, W. A. de Heer, and M. Potemski, Physical Review Letters, 103, 186803 (2009).

Magneto-Raman Scattering of Graphene on Graphite: Electronic and Phonon Excitations C. Faugeras, M. Amado, P. Kossacki, M. Orlita, M. Kuhne, A. A. L. Nicolet, Yu. I. Latyshev, and M. Potemski,  Physical Review Letters,107, 036807 (2011).

Landau Level Spectroscopy of Electron-Electron Interactions in Graphene C. Faugeras, S. Berciaud, P. Leszczynski, Y. Henni,K. Nogajewski, M. Orlita, T. Taniguchi, K. Watanabe, C. Forsythe, P. Kim, R. Jalil, A. K. Geim, D. M. Basko, and M. Potemski,Physical Review Letters, 114, 126804 (2015).

Rhombohedral Multilayer Graphene: A Magneto-Raman Scattering Study Younes Henni, Hector Pablo Ojeda Collado, Karol Nogajewski, Maciej R. Molas, Gonzalo Usaj, Carlos A. Balseiro, Milan Orlita, Marek Potemski, and Clement Faugeras, Nano Letters, 16 (2016).

Circular dichroism of magnetophonon resonance in doped graphene P. Kossacki, C. Faugeras, M. Kuhne,M. Orlita, A. Mahmood, E. Dujardin, R. R. Nair, A. K. Geim, and M. Potemski,Physical Review Letters,86, 205431 (2012).

Polarization-resolved magneto-Raman scattering of graphenelike domains on natural graphite M. Kuhne, C. Faugeras, P. Kossacki, A. A. L. Nicolet, M. Orlita, Yu. I. Latyshev, and M. Potemski, Physical Review Letters, 85, 195406 (2012).

Electrical Switch to the Resonant Magneto-Phonon Effect in Graphene Przemyslaw Leszczynski, Zheng Han, Aurelien A. L. Nicolet, Benjamin A. Piot, Piotr Kossacki, Milan Orlita, Vincent Bouchiat, Denis M. Basko, Marek Potemski, and Clement Faugeras, Nano Letters, 14 (2014).

Carrier dynamics in Landau-quantized graphene featuring strong Auger scattering Martin Mittendor,Florian Wendler, Ermin Malic, Andreas Knorr, Milan Orlita, Marek Potemski, Claire Berger, Walter A. de Heer, Harald Schneider, Manfred Helm, and StephanWinnerl, Nature Physics, 11 (2015).

Intraband carrier dynamics in Landau-quantized multilayer epitaxial graphene Martin Mittendorff, Milan Orlita, Marek Potemski, Claire Berger, Walter A de Heer, Harald Schneider, Manfred Helm and Stephan Winnerl, New Journal of Physics,16,123021(2014).

From laterally modulated two-dimensional electron gas towards artificial graphene  L Nadvornık, M Orlita, N A Goncharuk, L Smrcka,V Novak, V Jurka, K Hruska, Z Vyborny, Z R Wasilewski,M Potemski and K Vyborny, New Journal of Physics,14, 053002(2012).

How Perfect Can Graphene Be? P. Neugebauer, M. Orlita, C. Faugeras, A.-L. Barra, and M. Potemski, Physical Review Letters,103, 136403 (2009).

Strong interband Faraday rotation in 3D topological insulator Bi2Se3 L. Ohnoutek, M. Hakl, M. Veis, B. A. Piot, C. Faugeras, G. Martinez, M. V. Yakushev, R. W. Martin, Č. Drašar, A. Materna, G. Strzelecka, A. Hruban, M. Potemski and M. Orlita, Scientific Reports,6, 19087 (2016).

Classical to quantum crossover of the cyclotron resonance in graphene: a study of the strength of intraband absorption M Orlita, I Crassee, C Faugeras, A B Kuzmenko,F Fromm, M Ostler, Th Seyller, G Martinez, M Polini and M Potemski1, New Journal of Physics, 14, 095008(2012).

Magneto-optics of bilayer inclusions in multilayered epitaxial graphene on the carbon face of SiC M. Orlita, C. Faugeras, J. Borysiuk, J. M. Baranowski, W. Strupinski, M. Sprinkle, C. Berger, W. A. de Heer,D. M. Basko, G. Martinez, and M. Potemski, Physical Review Letters, 83, 125302 (2011).

Dirac Fermions at the H Point of Graphite: Magnetotransmission Studies M. Orlita, C. Faugeras, G. Martinez, D. K. Maude, M. L. Sadowski, and M. Potemski, Physical Review Letters, 100, 136403 (2008).

Approaching the Dirac Point in High-Mobility Multilayer Epitaxial Graphene M. Orlita, C. Faugeras, P. Plochocka, P. Neugebauer, G. Martinez, D. K. Maude, A.-L. Barra, M. Sprinkle, C. Berger, W. A. de Heer, and M. Potemski, Physical Review Letters, 101, 267601 (2008).

Graphite from the Viewpoint of Landau Level Spectroscopy: An Effective Graphene Bilayer and Monolayer M. Orlita, C. Faugeras, J. M. Schneider, G. Martinez, D. K. Maude, and M. Potemski, Physical Review Letters, 102, 166401 (2009).

Carrier Scattering from Dynamical Magnetoconductivity in Quasineutral Epitaxial Graphene M. Orlita, C. Faugeras, R. Grill, A. Wysmolek, W. Strupinski, C. Berger, W. A. de Heer, G. Martinez, and M. Potemski, Physical Review Letters, 107, 216603 (2011).

Cyclotron Motion in the Vicinity of a Lifshitz Transition in Graphite M. Orlita, P. Neugebauer, C. Faugeras, A.-L. Barra, M. Potemski, F. M. D. Pellegrino, and D. M. Basko, Physical Review Letters, 108, 017602 (2012).

Resonant Excitation of Graphene K-Phonon and Intra-Laudau-Level Excitons in Magneto-Optical Spectroscopy M. Orlita, Liang Z. Tan, M. Potemski, M. Sprinkle, C. Berger, W. A. de Heer, Steven G. Louie, and G. Martinez, Physical Review Letters, 108, 247401 (2012).

Magneto-Optics of Massive Dirac Fermions in Bulk Bi2Se3 M. Orlita, B. A. Piot, G. Martinez, N. K. Sampath Kumar, C. Faugeras, M. Potemski, C. Michel, E. M. Hankiewicz, T. Brauner, Č. Drašar, S. Schreyeck, S. Grauer, K. Brunner, C. Gould, C. Brüne, and L.W. Molenkamp, Physical Review Letters, 114, 186401 (2015).

Magneto-transmission of multi-layer epitaxial graphene and bulk graphite: A comparison M. Orlita, C. Faugeras, G. Martinez, D.K. Maude, J.M. Schneider, M. Sprinkle, C. Berger, W.A. de Heerd, M. Potemski, Solid State Communications, 149 (2009).

High-Energy Limit of Massless Dirac Fermions in Multilayer Graphene using Magneto-Optical Transmission Spectroscopy P. Plochocka, C. Faugeras, M. Orlita, M. L. Sadowski, G. Martinez, and M. Potemski, Physical Review Letters, 100, 087401 (2008).

Consistent Interpretation of the Low-Temperature Magnetotransport in Graphite Using the Slonczewski-Weiss-McClure 3D Band-Structure Calculations J. M. Schneider, M. Orlita, M. Potemski, and D. K. Maude, Physical Review Letters, 102, 166403 (2009).

Time-resolved spectroscopy on epitaxial graphene in the infrared spectral range: relaxation dynamics and saturation behavior S Winnerl, F Gottfert, M Mittendorff, H Schneider, M Helm,T Winzer, E Malic, A Knorr, M Orlita, M Potemski, M Sprinkle,C Berger and W A de Heer. Journal of Physics: Condensed Matter, 25, 054202(2013).

Carrier Relaxation in Epitaxial Graphene Photoexcited Near the Dirac Point S. Winnerl, M. Orlita, P. Plochocka, P. Kossacki, M. Potemski, T. Winzer, E. Malic, A. Knorr, M. Sprinkle, C. Berger, W. A. de Heer, H. Schneider, and M. Helm, Physical Review Letters, 107, 237401 (2011).

Quasiclassical cyclotron resonance of Dirac fermions in highly doped graphene A. M. Witowski, M. Orlita, R. Ste¸pniewski, A. Wysmołek, J. M. Baranowski, W. Strupiński, C. Faugeras, Physical Review Letters, 82, 165305 (2010).

 

Analytics, Modelling Practices & Statistical Tools

Presentations

Papers

Chapter 1. A Brief History and State of the Art of Ellipsometry

Chapter 2. Data Analysis for Nanomaterials: Effective Medium Approximation, Its Limits and Implementations

 

Book: http://www.springer.com/la/book/9783642339554  

 

 

 

 

 

Sensing

Presentations

This project has received funding from the European Union’s
Horizon 2020 research and innovation programme under grant agreement No 692034.
Disclaimer: This website and included materials reflect only the author’s view and the Research Executive Agency is not responsible for any use that may be made of the information it contains.